技术资料
白皮书和应用说明
Analysis of Heat Transfer in a Complex Three Dimensional Structure Fabricated by Additive Manufacturing
发布日期 2014
The goal of this study was to create a three dimensionally designed biomedical device with multiple functionalities and analyze its simulated heat transfer. The device would be fabricated through additive manufacturing; specifically electron beam melting (EBM). EBM has a feature size constraint of 1 mm (acceptable for this design) and is only capable of manufacturing titanium alloys [2]; a biocompatible metal commonly used in the medical implant market [1]. In addition, silicon IC chips are used as attached functional elements. From the simulation, it was concluded that the device design and characteristics can be optimized through this COMSOL Multiphysics® analysis.
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- settle_poster.pdf - 0.38MB
- settle_abstract.pdf - 0.23MB